US8406237B2 - Methods and apparatus for implementing proxy mobile IP in foreign agent care-of address mode - Google Patents
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- US8406237B2 US8406237B2 US11/941,873 US94187307A US8406237B2 US 8406237 B2 US8406237 B2 US 8406237B2 US 94187307 A US94187307 A US 94187307A US 8406237 B2 US8406237 B2 US 8406237B2
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L9/00—Cryptographic mechanisms or cryptographic arrangements for secret or secure communications; Network security protocols
- H04L9/40—Network security protocols
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/02—Processing of mobility data, e.g. registration information at HLR [Home Location Register] or VLR [Visitor Location Register]; Transfer of mobility data, e.g. between HLR, VLR or external networks
- H04W8/04—Registration at HLR or HSS [Home Subscriber Server]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W60/00—Affiliation to network, e.g. registration; Terminating affiliation with the network, e.g. de-registration
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/02—Processing of mobility data, e.g. registration information at HLR [Home Location Register] or VLR [Visitor Location Register]; Transfer of mobility data, e.g. between HLR, VLR or external networks
- H04W8/08—Mobility data transfer
- H04W8/085—Mobility data transfer involving hierarchical organized mobility servers, e.g. hierarchical mobile IP [HMIP]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W8/00—Network data management
- H04W8/26—Network addressing or numbering for mobility support
Definitions
- the present disclosure relates generally to wireless communication systems. More specifically, the present disclosure relates to methods and apparatus for implementing proxy mobile IP in foreign agent care-of address mode.
- Wireless communication devices have become smaller and more powerful in order to meet consumer needs and to improve portability and convenience. Consumers have become dependent upon wireless communication devices such as cellular telephones, personal digital assistants (PDAs), laptop computers, and the like. Consumers have come to expect reliable service, expanded areas of coverage, and increased functionality. Wireless communication devices may be referred to as mobile stations, stations, access terminals, user terminals, terminals, subscriber units, user equipment, etc.
- a wireless communication system may simultaneously support communication for multiple wireless communication devices.
- a wireless communication device may communicate with one or more base stations (which may alternatively be referred to as access points, Node Bs, etc.) via transmissions on the uplink and the downlink.
- the uplink (or reverse link) refers to the communication link from the wireless communication devices to the base stations
- the downlink (or forward link) refers to the communication link from the base stations to the wireless communication devices.
- Wireless communication systems may be multiple-access systems capable of supporting communication with multiple users by sharing the available system resources (e.g., bandwidth and transmit power). Examples of such multiple-access systems include code division multiple access (CDMA) systems, time division multiple access (TDMA) systems, frequency division multiple access (FDMA) systems, and orthogonal frequency division multiple access (OFDMA) systems.
- CDMA code division multiple access
- TDMA time division multiple access
- FDMA frequency division multiple access
- OFDMA orthogonal frequency division multiple access
- FIG. 1 illustrates an example of a wireless communication system
- FIG. 2 illustrates a system for implementing PMIP in mobile IP FA CoA mode
- FIG. 3 illustrates a method for implementing PMIP in mobile IP FA CoA mode
- FIG. 4 illustrates means-plus-function blocks corresponding to the method shown in FIG. 3 ;
- FIG. 5 illustrates another method for implementing PMIP in mobile IP FA CoA mode
- FIG. 6 illustrates an example showing packet headers as packets travel from an MS/AT to a CN on the reverse link, and also as packets travel from the CN to the MS/AT on the forward link;
- FIG. 7 illustrates another method for implementing PMIP in mobile IP FA CoA mode
- FIG. 8 illustrates another method for implementing PMIP in mobile IP FA CoA mode
- FIG. 9 illustrates another method for implementing PMIP in mobile IP FA CoA mode
- FIG. 10 illustrates another method for implementing PMIP in mobile IP FA CoA mode
- FIG. 11 illustrates another method for implementing PMIP in mobile IP FA CoA mode
- FIG. 12 illustrates various components that may be utilized in a wireless device.
- FIG. 1 illustrates an example of a wireless communication system 100 .
- the wireless communication system 100 provides communication for a number of cells 102 , each of which is serviced by a base station 104 .
- a base station 104 may be a fixed station that communicates with user terminals 106 .
- the base station 104 may alternatively be referred to as an access point, a Node B, or some other terminology.
- FIG. 1 shows various user terminals 106 dispersed throughout the system 100 .
- the user terminals 106 may be fixed (i.e., stationary) or mobile.
- the user terminals 106 may alternatively be referred to as remote stations, access terminals, terminals, subscriber units, mobile stations, stations, user equipment, etc.
- the user terminals 106 may be wireless devices, such as cellular phones, personal digital assistants (PDAs), handheld devices, wireless modems, laptop computers, personal computers, etc.
- PDAs personal digital assistants
- a variety of algorithms and methods may be used for transmissions in the wireless communication system 100 between the base stations 104 and the user terminals 106 .
- a communication link that facilitates transmission from a base station 104 to a user terminal 106 may be referred to as a downlink 108
- a communication link that facilitates transmission from a user terminal 106 to a base station 104 may be referred to as an uplink 110
- a downlink 108 may be referred to as a forward link or a forward channel
- an uplink 110 may be referred to as a reverse link or a reverse channel.
- Mobile IP is an Internet Engineering Task Force (IETF) standard communications protocol that is designed to allow mobile device users to move from one network to another while maintaining a permanent IP address.
- IETF Internet Engineering Task Force
- nodes may change their point-of-attachment to the Internet without changing their IP address. This allows them to maintain transport and higher-layer connections while moving.
- Mobile IP defines two addresses for each mobile node (MN).
- the first address is the home address (HoA), which is the address that is issued to the MN by its home network.
- the HoA can be thought of as identifying the MN to the IP network.
- the second address is the care-of address (CoA), which is a temporary IP address that is assigned to the MN by the visited network. This IP address can be thought of as providing information about the current logical location of the MN.
- HoA home address
- CoA care-of address
- Mobile IP uses two mobility agents, the home agent (HA) and the foreign agent (FA).
- the HA is located in the home network, and the FA is located in the visited network.
- the FA may be co-located with the MN. This is referred to as a co-located FA.
- Mobility agents may advertise their presence to enable discovery by the MN. Once in a visited network, the MN may obtain a new address and send an update message to the HA, informing it of the address of the new FA. This update registration may be done directly by the MN for a co-located care-of address (CCoA), or it may be relayed by the FA if the visited subnet FA address is used as the CoA.
- CoA co-located care-of address
- packets destined to the MN that arrive in the home network may be forwarded to the appropriate FA CoA by encapsulating them in a tunneling protocol.
- IP-in-IP encapsulation may be used for this tunneling.
- minimal encapsulation or generic routing encapsulation (GRE) tunneling may be used.
- the FA may de-capsulate the packets and deliver them to the MN.
- mobile IP facilitates the delivery of packets to the MN regardless of its location.
- CMIP client-based mobile IP
- PMIP proxy mobile IP
- the network node that acts as the proxy may perform registration and other MIP signaling on behalf of the MN.
- the network node that acts as the proxy may include a co-located FA functionality or work with an external FA entity.
- PMIP may be used when an access terminal (AT) moves from one base station (BS) or packet data serving node (PDSN) to another BS or PDSN without changing CoA/CCoA from the AT's perspective. If PMIP is used, there is no need for the AT to send CMIP RRQ/RRP (BU/BA) over the air.
- CMIP RRQ/RRP CMIP RRQ/RRP
- LMHA local mobility home agent
- PMIP interaction for MIPv6 and MIPv4 CCoA is clean. There is separate binding between the CMIP and the PMIP. In particular, there is binding between the HoA and the CCoA. There is also binding between the CCoA and the IP address of the eBS/PDSN.
- the present disclosure relates to techniques for implementing PMIP in mobile IP FA CoA mode.
- a method for implementing proxy mobile Internet protocol (PMIP) in mobile IP foreign agent care-of-address mode may be performed by a network node that is a proxy for mobile IP client functionality in an access terminal.
- the method may include determining a home address of the access terminal.
- the method may also include communicating with a home agent in order to bind an address of the network node with the home address of the access terminal and establish a tunnel between the network node and the home agent.
- the method may also include receiving first packets destined for the access terminal from the home agent via the tunnel and sending the first packets to the access terminal.
- the method may also include receiving second packets sent by the access terminal that are destined for a correspondent node and sending the second packets to the home agent via the tunnel.
- a network node for implementing proxy mobile Internet protocol (PMIP) in mobile IP foreign agent care-of-address mode includes a processor, memory in electronic communication with the processor, and instructions stored in the memory.
- the instructions may be executable to determine a home address of the access terminal.
- the instructions may also be executable to communicate with a home agent in order to bind an address of the network node with the home address of the access terminal and establish a tunnel between the network node and the home agent.
- the instructions may also be executable to receive first packets destined for the access terminal from the home agent via the tunnel and send the first packets to the access terminal.
- the instructions may also be executable to receive second packets sent by the access terminal that are destined for a correspondent node and send the second packets to the home agent via the tunnel.
- the apparatus may include means for determining a home address of the access terminal.
- the apparatus may also include means for communicating with a home agent in order to bind an address of the network node with the home address of the access terminal and establish a tunnel between the network node and the home agent.
- the apparatus may also include means for receiving first packets destined for the access terminal from the home agent via the tunnel and sending the first packets to the access terminal.
- the apparatus may also include means for receiving second packets sent by the access terminal that are destined for a correspondent node and sending the second packets to the home agent via the tunnel.
- a computer-program product for implementing proxy mobile Internet protocol (PMIP) in mobile IP foreign agent care-of-address mode includes a computer readable medium having instructions thereon.
- the instructions may include code for determining a home address of the access terminal.
- the instructions may also include code for communicating with a home agent in order to bind an address of the network node with the home address of the access terminal and establish a tunnel between the network node and the home agent.
- the instructions may also include code for receiving first packets destined for the access terminal from the home agent via the tunnel and sending the first packets to the access terminal.
- the instructions may also include code for receiving second packets sent by the access terminal that are destined for a correspondent node and sending the second packets to the home agent via the tunnel.
- FIG. 2 illustrates a system 200 for implementing PMIP in mobile IP FA CoA mode.
- the system 200 includes an AT 216 and a network node 214 that is a proxy for mobile IP client functionality in the AT 216 .
- the network node 214 may be a base station (BS), an evolved base station (eBS), a packet data serving node (PDSN), an access gateway (AGW), an access agnostic gateway (AAG), a local mobility home agent (LMHA), etc.
- BS base station
- eBS evolved base station
- PDSN packet data serving node
- AGW access gateway
- AAG access agnostic gateway
- LMHA local mobility home agent
- the network node 214 may be configured to determine the HoA 206 of the AT 216 . There are many different ways that this may be done. For example, the network node 214 may receive the HoA 206 of the AT 216 from an authentication, authorization, and accounting (AAA) component during authentication. As another example, the network node 214 may receive the HoA 206 of the AT 216 from a home agent 202 . As another example, the network node 214 may snoop a registration reply message that is sent from the home agent 202 . As another example, the network node 214 may receive the HoA 206 of the AT 216 from the AT 216 itself.
- AAA authentication, authorization, and accounting
- the network node 214 may communicate with the home agent 202 in order to bind the IP address 204 of the network node 214 with the HoA 206 of the AT 216 .
- a tunnel 212 may be established between the network node 214 and the home agent 202 .
- the home agent 202 may send the packets 210 to the network node 214 via the tunnel 212 .
- the network node 214 may send the packets 208 to the home agent 202 via the tunnel 212 .
- FIG. 3 illustrates a method 300 for implementing PMIP in mobile IP FA CoA mode.
- the method 300 may be performed by a network node 214 that is a proxy for mobile IP client functionality in an AT 216 .
- the network node 214 may determine 302 the HoA 206 of the AT 216 . Once the network node 214 has determined 302 the HoA 206 of the AT 216 , the network node 214 may communicate with the home agent 202 in order to bind 304 the IP address 204 of the network node 214 with the HoA 206 of the AT 216 and establish 306 a tunnel 212 between the network node 214 and the home agent 202 .
- the home agent 202 may send 310 the packets 210 to the network node 214 via the tunnel 212 .
- the network node 214 may send 314 the packets 208 to the home agent 202 via the tunnel 212 .
- the method 300 of FIG. 3 described above may be performed by various hardware and/or software component(s) and/or module(s) corresponding to the means-plus-function blocks 400 illustrated in FIG. 4 .
- blocks 302 through 314 illustrated in FIG. 3 correspond to means-plus-function blocks 402 through 414 illustrated in FIG. 4 .
- FIG. 5 illustrates another method 500 for implementing PMIP in mobile IP FA CoA mode.
- the method 500 involves an AT 502 , a source e-BS/PDSN (S-eBS/PDSN) 504 , a target eBS/PDSN (T-eBS/PDSN) 506 , an LMHA/AAG 508 , a VAAA/HAAA 510 , and an MIPv4 HA 512 .
- the S-eBS/PDSN 504 and the T-eBS/PDSN 506 are proxies for mobile IP client functionality in the AT 502 .
- Connection and session establishment 514 may occur between the AT 502 and the S-eBS/PDSN 504 .
- Successful access authentication 516 may occur between the AT 502 and the S-eBS/PDSN 504 .
- This may include the S-eBS/PDSN 504 sending an access request message 518 to the VAAA/HAAA 510 , and the VAAA/HAAA 510 sending an access accept message 520 to the S-eBS/PDSN 504 .
- the access accept message 520 may include the HoA of the AT 502 .
- the S-eBS/PDSN 504 may determine the HoA of the AT 502 by receiving it from the VAAA/HAAA 510 during authentication.
- the AT 502 and the S-eBS/PDSN 504 may generate and exchange 522 session keys.
- the S-eBS/PDSN 504 and the LMHA/AAG 508 may communicate via MIPv4 RRQ/RRP in order to bind 524 the IP address of the S-eBS/PDSN 504 with the HoA of the AT 502 .
- the AT 502 may send a DHCP request 526 to the S-eBS/PDSN 504 .
- the S-eBS/PDSN 504 may send a DHCP reply 528 to the AT 502 .
- the DHCP reply 528 may include the HoA of the AT 502 .
- the S-eBS/PDSN 504 may obtain 530 the FA CoA for all ATs that are served by the AAG 508 .
- the S-eBS/PDSN 504 may send an agent advertisement message 532 to the AT 502 .
- the source address of the agent advertisement message 532 may be the LMHA 508 .
- the AT 502 may send a registration request 536 that binds the CoA with the HoA.
- the destination IP address of the registration request 536 may be the LMHA 508 .
- the registration request 536 may be sent from the AT 502 to the S-eBS/PDSN 504 .
- the S-eBS/PDSN 504 may then send the registration request 536 to the LMHA/AAG 508 via a tunnel 534 .
- the LMHA/AAG 508 may send a RADIUS/Diameter Message 538 to the VAAA/HAAA 510 .
- the VAAA/HAAA 510 may send a RADIUS/Diameter Message 540 to the LMHA/AAG 508 .
- IKE/IPsec Security Association establishment 542 may occur between the LMHA/AAG 508 and the MIPv4 HA 512 .
- the LMHA/AAG 508 may send a registration request message 544 to the MIPv4 HA 512 .
- the MIPv4 HA 512 may send a RADIUS/Diameter message 546 to the VAAA/HAAA 510 .
- the VAAA/HAAA 510 may send a RADIUS/Diameter message 548 to the MIPv4 HA 512 .
- the MIPv4 HA 512 may send a registration reply message 550 to the LMHA/AAG 508 .
- the LMHA/AAG 508 may send the registration reply message 550 to the S-eBS/PDSN 504 via a tunnel 552 .
- the S-eBS/PDSN 504 may then send the registration reply message 550 to the AT 502 .
- IPv4 packets 556 may be sent between the MIPv4 HA 512 and the LMHA/AAG 508 via an MIPv4 tunnel 558 .
- IPv4 packets 556 may be sent between the LMHA/AAG 508 and the S-eBS/PDSN 504 via another MIPv4 tunnel 560 .
- the MIPv4 HA 512 may send the packets to the LMHA/AAG 508 via the tunnel 558 .
- the LMHA/AAG 508 may then send the packets to the S-eBS/PDSN 504 via the tunnel 560 .
- the S-eBS/PDSN 504 may then send the packets to the AT 502 .
- the S-eBS/PDSN 504 may send the packets to the LMHA/AAG 508 via the tunnel 560 .
- the LMHA/AAG 508 may then send the packets to the MIPv4 HA 512 via the tunnel 558 .
- the MIPv4 HA 512 may then send the packets to the CN.
- handoff 562 of the AT 502 may occur from the S-eBS/PDSN 504 to the T-eBS/PDSN 506 .
- This may include context transfer 564 between the S-eBS/PDSN 504 and the T-eBS/PDSN 506 .
- the S-eBS/PDSN 504 may notify the T-eBS/PDSN 506 about the HoA of the AT 502 .
- the T-eBS/PDSN 506 and the LMHA/AAG 508 may communicate via MIPv4 RRQ/RRP in order to bind 566 the IP address of the T-eBS/PDSN 506 with the HoA of the AT 502 .
- IPv4 packets 568 may be sent between the MIPv4 HA 512 and the LMHA/AAG 508 via an MIPv4 tunnel 570 .
- IPv4 packets 568 may be sent between the LMHA/AAG 508 and the T-eBS/PDSN 506 via an MIPv4 tunnel 572 .
- FIG. 6 illustrates an example showing packet headers as packets travel from a MS/AT 602 to a CN 610 on the reverse link 612 , and also as packets travel from the CN 610 to the MS/AT 602 on the forward link 620 .
- An MS/AT 602 , eBS/PDSN 604 , LMHA/AAG 606 , HA 608 , and CN 610 are shown.
- LMHA/AAG 606 there is binding between the IP address of the eBS/PDSN 604 and the HoA of the MS/AT 602 .
- the HA 608 there is binding between the CoA and the HoA of the MS/AT 602 .
- the MS/AT 602 sends a packet 614 to the eBS/PDSN 604 .
- the source address of the packet 614 is the HoA of the MS/AT 602 .
- the destination address of the packet 614 is the IP address of the CN 610 .
- the eBS/PDSN 604 then sends a packet 616 to the LMHA/AAG 606 .
- the packet 616 includes the original packet 614 sent from the MS/AT 602 to the eBS/PDSN 604 .
- the source address of the packet 616 is the IP address of the eBS/PDSN 604 .
- the destination address of the packet 616 is the IP address of the LMHA/AAG 606 .
- the LMHA/AAG 606 then sends a packet 618 to the HA 608 .
- the packet 618 includes the original packet 614 sent from the MS/AT 602 to the eBS/PDSN 604 .
- the source address of the packet 618 is the CoA of the MS/AT 602 .
- the destination address of the packet 618 is the IP address of the HA 608 .
- the HA 608 then sends the original packet 614 to the CN 610 .
- the FA CoA on the forward link 620 will be discussed next.
- the CN 610 sends a packet 622 to the HA 608 .
- the source address of the packet 622 is the IP address of the CN 610 .
- the destination address of the packet 622 is the HoA of the MS/AT 602 .
- the HA 608 then sends a packet 624 to the LMHA/AAG 606 .
- the packet 624 includes the original packet 622 sent from the CN 610 to the HA 608 .
- the source address of the packet 624 is the IP address of the HA 608 .
- the destination address of the packet 624 is the CoA of the MS/AT 602 .
- the LMHA/AAG 606 then sends a packet 626 to the eBS/PDSN 604 .
- the packet 626 includes the original packet 622 sent from the CN 610 to the HA 608 .
- the source address of the packet 626 is the IP address of the LMHA/AAG 606 .
- the destination address of the packet 626 is the IP address of the eBS/PDSN 604 .
- the eBS/PDSN 604 then sends the original packet 622 to the MS/AT 602 .
- FIG. 7 illustrates another method 700 for implementing PMIP in mobile IP FA CoA mode.
- the method 700 involves an AT 702 , an eBS/PDSN 704 , an LMHA/AAG 706 , an HAAA 708 , and an MIPv4 HA 710 .
- the eBS/PDSN 704 is a proxy for mobile IP client functionality in the AT 702 .
- Connection and session establishment 712 may occur between the AT 702 and the eBS/PDSN 704 .
- Successful access authentication 714 may occur between the AT 702 and the eBS/PDSN 704 .
- Successful access authentication 716 may also occur between the eBS/PDSN 704 and the HAAA 708 .
- the AT 702 and the eBS/PDSN 704 may generate and exchange 718 session keys.
- Service authentication 720 between the AT 702 and the eBS/PDSN 704 may be truncated.
- service authentication 722 involving the eBS/PDSN 704 and the HAAA 708 may be truncated.
- the HAAA 708 may truncate the service authentication and indicate that MIPv4 authentication is going to be performed instead.
- the eBS/PDSN 704 may obtain 724 the FA CoA for the AT 702 that is appropriate for use on the LMHA 706 subnet. This may be obtained from the DHCPv4 server.
- the eBS/PDSN 704 may send an agent advertisement message 726 to the AT 702 .
- the source address of the agent advertisement message 726 may be the eBS/PDSN 704 .
- the AT 702 may send a registration request message 728 to the eBS/PDSN 704 .
- the destination address of the registration request message 728 may be the eBS/PDSN 704 .
- the eBS/PDSN 704 may send a RADIUS access-request message 730 to the HAAA 708 .
- the HAAA 708 may send a RADIUS access-accept message 732 to the eBS/PDSN 704 .
- the eBS/PDSN 704 may send a registration request message 736 to the MIPv4 HA 710 .
- the MIPv4 HA 710 may send a RADIUS access-request message 738 to the HAAA 708 .
- the HAAA 708 sending a RADIUS access-accept message 740 to the MIPv4 HA 710 .
- the MIPv4 HA 710 may then send a registration reply message 742 to the eBS/PDSN 704 .
- the registration reply message 742 may include the HoA of the AT 702 .
- the eBS/PDSN 704 may determine the HoA of the AT 702 by receiving it from the MIPv4 HA 710 .
- the eBS/PDSN 704 and the LMHA/AAG 706 may communicate via MIPv4 RRQ/RRP in order to bind 744 the IP address of the eBS/PDSN 704 with the HoA of the AT 702 . More specifically, the FA IPv4 address of the AT 702 (which is an HoA) may be bound to the IPv4 address of the eBS/PDSN 704 (which is a CoA).
- the eBS/PDSN 704 may send a registration reply 746 to the AT 702 .
- the eBS/PDSN 704 may send a RADIUS accounting-request 748 to the HAAA 708 .
- the HAAA 708 may send a RADIUS accounting-response 750 to the eBS/PDSN 704 .
- IPv4 packets 752 may be sent between the MIPv4 HA 710 and the LMHA/AAG 706 via an MIPv4 bidirectional tunnel 756 .
- IPv4 packets 752 may be sent between the LMHA/AAG 706 and the eBS/PDSN 704 via a PMIP tunnel 754 .
- the MIPv4 HA 710 may send the packets to the LMHA/AAG 706 via the MIPv4 bidirectional tunnel 756 .
- the LMHA/AAG 706 may then send the packets to the eBS/PDSN 704 via the PMIP tunnel 754 .
- the eBS/PDSN 704 may then send the packets to the AT 702 .
- the eBS/PDSN 704 may send the packets to the LMHA/AAG 706 via the PMIP tunnel 754 .
- the LMHA/AAG 706 may then send the packets to the MIPv4 HA 710 via the MIPv4 tunnel 756 .
- the MIPv4 HA 710 may then send the packets to the CN.
- FIG. 8 illustrates another method 800 for implementing PMIP in mobile IP FA CoA mode.
- the method 800 involves an AT 802 , an S-eBS/PDSN 804 , a T-eBS/PDSN 806 , an LMHA/AAG 808 , an HAAA 810 , and an MIPv4 HA 812 .
- the S-eBS/PDSN 804 and the T-eBS/PDSN 806 are proxies for mobile IP client functionality in the AT 802 .
- Connection and session establishment 814 may occur between the AT 802 and the S-eBS/PDSN 804 .
- Successful access authentication 816 may occur between the AT 802 and the S-eBS/PDSN 804 . This may involve the S-eBS/PDSN 804 sending an access request message 818 to the HAAA 810 , and the HAAA 810 sending an access accept message 820 to the S-eBS/PDSN 804 .
- the AT 802 and the S-eBS/PDSN 804 may generate and exchange 822 session key(s).
- the S-eBS/PDSN 804 may obtain 824 the FA CoA for all ATs that are served by the AAG 808 .
- the S-eBS/PDSN 804 may send an agent advertisement message 826 to the AT 802 .
- the source address of the agent advertisement message 826 may be the LMHA 808 .
- the AT 802 may send a registration request message 828 to the S-eBS/PDSN 804 .
- the destination address of the registration request message 828 may be the LMHA 808 .
- the S-eBS/PDSN 804 may send the registration request message 828 to the LMHA/AAG 808 via a tunnel 830 .
- the LMHA/AAG 808 may send a RADIUS/diameter message 832 to the HAAA 810 .
- the HAAA 810 may send a RADIUS/diameter message 834 to the LMHA/AAG 808 .
- IKE/IPsec security association establishment may occur 836 between the LMHA/AAG 808 and the MIPv4 HA 812 .
- the LMHA/AAG 808 may send a registration request 838 to the MIPv4 HA 812 .
- the MIPv4 HA 812 may send a RADIUS/diameter message 840 to the HAAA 810 .
- the HAAA 810 may send a RADIUS/diameter message 842 to the MIPv4 HA 812 .
- the MIPv4 HA 812 may send a registration reply message 844 to the LMHA/AAG 808 .
- the LMHA/AAG 808 may send the registration reply message 844 to the S-eBS/PDSN 804 via a tunnel 846 .
- the S-eBS/PDSN 804 may send the registration reply message 844 to the AT 802 .
- the registration reply message 844 may include the HoA of the AT 802 .
- the S-eBS/PDSN 804 may determine the HoA of the AT 802 by snooping 850 the registration reply message 844 .
- the S-eBS/PDSN 804 and the LMHA/AAG 808 may communicate via PMIPv4 RRQ/RRP in order to bind 852 the IP address of the S-eBS/PDSN 804 with the HoA of the AT 802 .
- IPv4 packets 854 may be sent between the MIPv4 HA 812 and the LMHA/AAG 808 via an MIPv4 tunnel 856 .
- IPv4 packets 854 may be sent between the LMHA/AAG 808 and the S-eBS/PDSN 804 via another MIPv4 tunnel 858 .
- the MIPv4 HA 812 may send the packets to the LMHA/AAG 808 via the tunnel 856 .
- the LMHA/AAG 808 may then send the packets to the S-eBS/PDSN 804 via the tunnel 858 .
- the S-eBS/PDSN 804 may then send the packets to the AT 802 .
- the S-eBS/PDSN 804 may send the packets to the LMHA/AAG 808 via the tunnel 858 .
- the LMHA/AAG 808 may then send the packets to the MIPv4 HA 812 via the tunnel 856 .
- the MIPv4 HA 812 may then send the packets to the CN.
- handoff 860 of the AT 802 may occur from the S-eBS/PDSN 804 to the T-eBS/PDSN 806 .
- context transfer 862 may occur between the S-eBS/PDSN 804 and the T-eBS/PDSN 806 .
- the S-eBS/PDSN 804 may notify the T-eBS/PDSN 806 about the HoA of the AT 802 .
- the T-eBS/PDSN 806 and the LMHA/AAG 808 may communicate via MIPv4 RRQ/RRP in order to bind 864 the IP address of the T-eBS/PDSN 806 with the HoA of the AT 802 .
- IPv4 packets 866 may be sent between the MIPv4 HA 812 and the LMHA/AAG 808 via an MIPv4 tunnel 870 .
- IPv4 packets 866 may be sent between the LMHA/AAG 808 and the T-eBS/PDSN 806 via another MIPv4 tunnel 868 .
- FIG. 9 illustrates another method 900 for implementing PMIP in mobile IP FA CoA mode.
- the method 900 involves an AT 902 , an S-eBS/PDSN 904 , a T-eBS/PDSN 906 , an LMHA/AAG 908 , an HAAA 910 , and an MIPv4 HA 912 .
- the S-eBS/PDSN 904 and the T-eBS/PDSN 906 are proxies for mobile IP client functionality in the AT 902 .
- Connection and session establishment may occur 914 between the AT 902 and the S-eBS/PDSN 904 .
- Successful access authentication may occur 916 between the AT 902 and the S-eBS/PDSN 904 .
- This may include the S-eBS/PDSN 904 sending an access request message 918 to the HAAA 910 , and the HAAA 910 sending an access accept message 920 to the S-eBS/PDSN 904 .
- the AT 902 and the S-eBS/PDSN 904 may generate and exchange 922 session key(s).
- the S-eBS/PDSN 904 may obtain 924 the FA CoA for all ATs that are served by the AAG 908 .
- the S-eBS/PDSN 904 may send an agent advertisement message 926 to the AT 902 .
- the source address of the agent advertisement message 926 may be the LMHA 908 .
- the AT 902 may send a registration request message 928 to the S-eBS/PDSN 904 .
- the destination address of the registration request message 928 may be the LMHA 908 .
- the S-eBS/PDSN 904 may send the registration request message 928 to the LMHA/AAG 908 via a tunnel 930 .
- the LMHA/AAG 908 may send a RADIUS/diameter message 932 to the HAAA 910 .
- the HAAA 910 may send a RADIUS/diameter message 934 to the LMHA/AAG 908 .
- IKE/IPsec security association establishment may occur 936 between the LMHA/AAG 908 and the MIPv4 HA 912 .
- the LMHA/AAG 908 may send a registration request 938 to the MIPv4 HA 912 .
- the MIPv4 HA 912 may send a RADIUS/diameter message 940 to the HAAA 910 .
- the HAAA 910 may send a RADIUS/diameter message 942 to the MIPv4 HA 912 .
- the MIPv4 HA 912 may send a registration reply message 944 to the LMHA/AAG 908 .
- the LMHA/AAG 908 may send the registration reply message 944 to the S-eBS/PDSN 904 via a tunnel 946 .
- the S-eBS/PDSN 904 may send the registration reply message 944 to the AT 902 .
- the registration reply message 944 may include the HoA of the AT 902 .
- the AT 902 may then send 950 its HoA to the S-eBS/PDSN 904 .
- the S-eBS/PDSN 904 may determine the HoA of the AT 902 by receiving it from the AT 902 .
- the S-eBS/PDSN 904 and the LMHA/AAG 908 may communicate via PMIPv4 RRQ/RRP in order to bind 952 the IP address of the S-eBS/PDSN 904 with the HoA of the AT 902 .
- IPv4 packets 954 may be sent between the MIPv4 HA 912 and the LMHA/AAG 908 via an MIPv4 tunnel 956 .
- IPv4 packets 954 may be sent between the LMHA/AAG 908 and the S-eBS/PDSN 904 via another MIPv4 tunnel 958 .
- the MIPv4 HA 912 may send the packets to the LMHA/AAG 908 via the tunnel 956 .
- the LMHA/AAG 908 may then send the packets to the S-eBS/PDSN 904 via the tunnel 958 .
- the S-eBS/PDSN 904 may then send the packets to the AT 902 .
- the S-eBS/PDSN 904 may send the packets to the LMHA/AAG 908 via the tunnel 958 .
- the LMHA/AAG 908 may then send the packets to the MIPv4 HA 912 via the tunnel 956 .
- the MIPv4 HA 912 may then send the packets to the CN.
- handoff 960 of the AT 902 from the S-eBS/PDSN 904 to the T-eBS/PDSN 906 may occur. This may involve a context transfer 962 between the S-eBS/PDSN 904 and the T-eBS/PDSN 906 . As part of the handoff 960 , context transfer 962 may occur between the S-eBS/PDSN 904 and the T-eBS/PDSN 906 . The S-eBS/PDSN 904 may notify the T-eBS/PDSN 906 about the HoA of the AT 902 .
- the T-eBS/PDSN 906 and the LMHA/AAG 908 may communicate via MIPv4 RRQ/RRP in order to bind 964 the IP address of the T-eBS/PDSN 906 with the HoA of the AT 902 .
- IPv4 packets 966 may be sent between the MIPv4 HA 912 and the LMHA/AAG 908 via an MIPv4 tunnel 970 .
- IPv4 packets 966 may be sent between the LMHA/AAG 908 and the T-eBS/PDSN 906 via another MIPv4 tunnel 968 .
- FIG. 10 illustrates another method 1000 for implementing PMIP in mobile IP FA CoA mode.
- the method 1000 involves an AT 1002 , an S-eBS 1004 , a T-eBS 1006 , an AAG 1008 , a VAAA/HAAA 1010 , and an MIPv4 HA 1012 .
- the S-eBS 1004 and the T-eBS 1006 are proxies for mobile IP client functionality in the AT 1002 .
- Connection and session establishment may occur 1014 between the AT 1002 and the S-eBS 1004 .
- Access authentication may occur 1016 between the AT 1002 and the S-eBS 1004 . This may include the S-eBS 1004 sending an access request message 1018 to the VAAA/HAAA 1010 , and the VAAA/HAAA 1010 sending an access accept message 1020 to the S-eBS 1004 .
- the access accept message 1020 may include the HoA of the AT 1002 .
- the S-eBS 1004 may determine the HoA of the AT 1002 by receiving it from the VAAA/HAAA 1010 during authentication.
- the AT 1002 and the S-eBS 1004 may generate and exchange 1022 session key(s).
- the S-eBS 1004 and the LMHA/AAG 1008 may communicate via MIPv4 RRQ/RRP in order to bind 1024 the IP address of the S-eBS 1004 with the HoA of the AT 1002 .
- the S-eBS 1004 may obtain/con figure 1026 the FA CoA for all ATs that are served by the AAG 1008 .
- the S-eBS 1004 may send an agent advertisement message 1028 to the AT 1002 .
- the source address of the agent advertisement message 1028 may be the AAG 1008 .
- the AT 1002 may send a registration request message 1030 to the S-eBS 1004 .
- the destination address of the registration request message 1030 may be the AAG 1030 .
- the S-eBS 1004 may send the registration request message 1030 to the AAG 1008 via a tunnel 1032 .
- the AAG 1008 may send a RADIUS/diameter message 1034 to the VAAA/HAAA 1010 .
- the VAAA/HAAA 1010 may send a RADIUS/diameter message 1036 to the AAG 1008 .
- IKE/IPsec security association establishment may occur 1038 between the AAG 1008 and the MIPv4 HA 1012 .
- the AAG 1008 may send a registration request 1040 to the MIPv4 HA 1012 .
- the MIPv4 HA 1012 may send a RADIUS/diameter message 1042 to the VAAA/HAAA 1010 .
- the VAAA/HAAA 1010 may send a RADIUS/diameter message 1044 to the MIPv4 HA 1012 .
- the MIPv4 HA 1012 may send a registration reply 1046 to the AAG 1008 .
- the AAG 1008 may send the registration reply 1046 to the S-eBS 1004 via a tunnel 1048 .
- the S-eBS 1004 may send the registration reply 1046 to the AT 1002 .
- IPv4 packets 1052 may be sent between the MIPv4 HA 1012 and the AAG 1008 via an MIPv4 tunnel 1054 .
- IPv4 packets 1052 may be sent between the AAG 1008 and the S-eBS 1004 via another MIPv4 tunnel 1056 .
- the MIPv4 HA 1012 may send the packets to the AAG 1008 via the tunnel 1054 .
- the AAG 1008 may then send the packets to the S-eBS 1004 via the tunnel 1056 .
- the S-eBS 1004 may then send the packets to the AT 1002 .
- the S-eBS 1004 may send the packets to the AAG 1008 via the tunnel 1056 .
- the AAG 1008 may then send the packets to the MIPv4 HA 1012 via the tunnel 1054 .
- the MIPv4 HA 1012 may then send the packets to the CN.
- handoff 1058 of the AT 1002 from the S-eBS/PDSN 1004 to the T-eBS/PDSN 1006 may occur. This may involve a context transfer 1060 between the S-eBS/PDSN 1004 and the T-eBS/PDSN 1006 . As part of the handoff 1058 , context transfer 1060 may occur between the S-eBS/PDSN 1004 and the T-eBS/PDSN 1006 . The S-eBS/PDSN 1004 may notify the T-eBS/PDSN 1006 about the HoA of the AT 1002 .
- the T-eBS/PDSN 1006 and the LMHA/AAG 1008 may communicate via MIPv4 RRQ/RRP in order to bind 1062 the IP address of the T-eBS/PDSN 1006 with the HoA of the AT 1002 .
- IPv4 packets 1064 may be sent between the MIPv4 HA 1012 and the LMHA/AAG 1008 via an MIPv4 tunnel 1066 .
- IPv4 packets 1066 may be sent between the LMHA/AAG 1008 and the T-eBS/PDSN 1006 via another MIPv4 tunnel 1068 .
- FIG. 10 illustrates another method 1100 for implementing PMIP in mobile IP FA CoA mode.
- An AT 1102 eBS 1 1104 , eBS 2 1106 , SRNC 1108 , AGW 1110 , VAAA (proxy) 1112 , and HAAA 1114 are shown.
- the illustrated method 110 involves a GRE key based approach between the eBS 1104 , 1006 and the AGW 1110 .
- Access authentication and authorization may occur 1116 .
- the SRNC may receive 1118 the PMN-AN-RK 1 .
- IOS signaling may occur 1120 .
- the eBS 1 1104 may receive the PMN-AN-HA 1 key and seq 1 from the SRNC 1118 .
- the eBS 1 1104 may send the link ID 1122 to the AT 1102 .
- the AT 1102 may send a DAP move request 1124 to the eBS 1104 .
- the eBS 1 1104 may send a PMIP RRQ message 1126 to the AGW 1110 .
- the AGW 1110 may send a PMIP RRP message 1128 to the eBS 1 1104 .
- the eBS 1 1104 may send a DAP assignment message 1130 to the AT 1102 .
- Additional IOS signaling may occur 1132 .
- the AT 1102 may present 1134 the link ID to the upper layer. IP address assignment may then occur 1136 .
- the PMIP may use a specific GRE tunnel. This may provide certain benefits not present in conventional PMIP or MIP.
- One benefit may be that the PMIP tunnel can be established before assigning an IP address, hence the tunnel can be used to assign the IP address to the AT from the AGW.
- multiple types IPv4, IPv6, MIPv4, MIPv6
- IPv6 IPv4, MIPv6
- FIG. 12 illustrates various components that may be utilized in a wireless device 1202 .
- the wireless device 1202 is an example of a device that may be configured to implement the various methods described herein.
- the wireless device 1202 may include a processor 1204 which controls operation of the wireless device 1202 .
- the processor 1204 may also be referred to as a central processing unit (CPU).
- Memory 1206 which may include both read-only memory (ROM) and random access memory (RAM), provides instructions and data to the processor 1204 .
- a portion of the memory 1206 may also include non-volatile random access memory (NVRAM).
- the processor 1204 typically performs logical and arithmetic operations based on program instructions stored within the memory 1206 .
- the instructions in the memory 1206 may be executable to implement the methods described herein.
- the wireless device 1202 may also include a housing 1208 that may include a transmitter 1212 and a receiver 1212 to allow transmission and reception of data between the wireless device 1202 and a remote location.
- the transmitter 1212 and receiver 1212 may be combined into a transceiver 1214 .
- An antenna 1216 may be attached to the housing 1208 and electrically coupled to the transceiver 1214 .
- the wireless device 1202 may also include (not shown) multiple transmitters, multiple receivers, multiple transceivers and/or multiple antenna.
- the wireless device 1202 may also include a signal detector 1218 that may be used to detect and quantify the level of signals received by the transceiver 1214 .
- the signal detector 1218 may detect such signals as total energy, pilot energy per pseudonoise (PN) chips, power spectral density, and other signals.
- the wireless device 1202 may also include a digital signal processor (DSP) 1220 for use in processing signals.
- DSP digital signal processor
- the various components of the wireless device 1202 may be coupled together by a bus system 1222 which may include a power bus, a control signal bus, and a status signal bus in addition to a data bus.
- a bus system 1222 which may include a power bus, a control signal bus, and a status signal bus in addition to a data bus.
- the various busses are illustrated in FIG. 12 as the bus system 1222 .
- determining encompasses a wide variety of actions and, therefore, “determining” can include calculating, computing, processing, deriving, investigating, looking up (e.g., looking up in a table, a database or another data structure), ascertaining and the like. Also, “determining” can include receiving (e.g., receiving information), accessing (e.g., accessing data in a memory) and the like. Also, “determining” can include resolving, selecting, choosing, establishing and the like.
- DSP digital signal processor
- ASIC application specific integrated circuit
- FPGA field programmable gate array signal
- a general purpose processor may be a microprocessor, but in the alternative, the processor may be any commercially available processor, controller, microcontroller or state machine.
- a processor may also be implemented as a combination of computing devices, e.g., a combination of a DSP and a microprocessor, a plurality of microprocessors, one or more microprocessors in conjunction with a DSP core or any other such configuration.
- the steps of a method or algorithm described in connection with the present disclosure may be embodied directly in hardware, in a software module executed by a processor or in a combination of the two.
- a software module may reside in any form of storage medium that is known in the art. Some examples of storage media that may be used include RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, registers, a hard disk, a removable disk, a CD-ROM and so forth.
- a software module may comprise a single instruction, or many instructions, and may be distributed over several different code segments, among different programs and across multiple storage media.
- a storage medium may be coupled to a processor such that the processor can read information from, and write information to, the storage medium. In the alternative, the storage medium may be integral to the processor.
- the methods disclosed herein comprise one or more steps or actions for achieving the described method.
- the method steps and/or actions may be interchanged with one another without departing from the scope of the claims.
- the order and/or use of specific steps and/or actions may be modified without departing from the scope of the claims.
- a computer-readable medium may be any available medium that can be accessed by a computer.
- a computer-readable medium may comprise RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.
- Disk and disc includes compact disc (CD), laser disc, optical disc, digital versatile disc (DVD), floppy disk and Blu-ray® disc where disks usually reproduce data magnetically, while discs reproduce data optically with lasers.
- Software or instructions may also be transmitted over a transmission medium.
- a transmission medium For example, if the software is transmitted from a website, server, or other remote source using a coaxial cable, fiber optic cable, twisted pair, digital subscriber line (DSL), or wireless technologies such as infrared, radio, and microwave, then the coaxial cable, fiber optic cable, twisted pair, DSL, or wireless technologies such as infrared, radio, and microwave are included in the definition of transmission medium.
- DSL digital subscriber line
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- Data Exchanges In Wide-Area Networks (AREA)
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TW096143797A TWI385997B (zh) | 2006-11-17 | 2007-11-19 | 在外籍代理器轉交位址模式中用於實施代理行動網際網路協定之方法及裝置 |
AU2007319172A AU2007319172A1 (en) | 2006-11-17 | 2007-11-19 | Methods and apparatus for implementing proxy mobile IP in foreign agent care-of address mode |
RU2009122987/09A RU2420905C2 (ru) | 2006-11-17 | 2007-11-19 | Способы и устройства для осуществления посредника мобильного ip в режиме сare-of-адреса внешнего агента |
JP2009537404A JP5226690B2 (ja) | 2006-11-17 | 2007-11-19 | フォーリンエージェント気付アドレスモードにおいてプロキシモバイルipを実現する方法と装置 |
KR1020097012602A KR101041688B1 (ko) | 2006-11-17 | 2007-11-19 | 외부 에이전트 관심 어드레스 모드에서 프록시 모바일 ip를 구현하기 위한 방법들 및 장치 |
CA2669156A CA2669156C (en) | 2006-11-17 | 2007-11-19 | Methods and apparatus for implementing proxy mobile ip in foreign agent care-of address mode |
BRPI0718891A BRPI0718891B1 (pt) | 2006-11-17 | 2007-11-19 | métodos e equipamento para implementar ip móvel de proxy em modo de endereço provisório de agente externo |
CN2007800424967A CN101578839B (zh) | 2006-11-17 | 2007-11-19 | 用于在外地代理转交地址模式下实现代理移动ip的方法和装置 |
MX2009005238A MX2009005238A (es) | 2006-11-17 | 2007-11-19 | Metodos y aparatos para implementar ip movil proxy en el modo de direccion de custodia del agente externo. |
EP07871519.0A EP2090064B1 (en) | 2006-11-17 | 2007-11-19 | Methods and apparatus for implementing proxy mobile ip in foreign agent care-of address mode |
IL198308A IL198308A0 (en) | 2006-11-17 | 2009-04-22 | Method and apparatus for implementing proxy mobile ip in foreign agent care-of address mode |
NO20092287A NO20092287L (no) | 2006-11-17 | 2009-06-12 | Realisering av stedfortredende mobil IP i modus fremmed agent c/o |
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US20080159227A1 (en) | 2008-07-03 |
TWI385997B (zh) | 2013-02-11 |
WO2008061257A2 (en) | 2008-05-22 |
BRPI0718891B1 (pt) | 2020-04-28 |
TW200838242A (en) | 2008-09-16 |
BRPI0718891A2 (pt) | 2013-12-03 |
EP2090064A2 (en) | 2009-08-19 |
KR20090081023A (ko) | 2009-07-27 |
JP5226690B2 (ja) | 2013-07-03 |
MX2009005238A (es) | 2009-05-28 |
CN101578839B (zh) | 2013-09-04 |
WO2008061257A3 (en) | 2008-07-17 |
JP2010510728A (ja) | 2010-04-02 |
CN101578839A (zh) | 2009-11-11 |
CA2669156C (en) | 2014-07-29 |
IL198308A0 (en) | 2010-02-17 |
CA2669156A1 (en) | 2008-05-22 |
AU2007319172A1 (en) | 2008-05-22 |
KR101041688B1 (ko) | 2011-06-14 |
EP2090064B1 (en) | 2014-12-17 |
NO20092287L (no) | 2009-06-24 |
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